What is Space-Time Made of ? / / David Izabel.
In the first part of this book, the author synthesizes the main results and formulas of physics–Albert Einstein’s, with general relativity, gravitational waves involving elastic deformable space-time, quantum field theory, Heisenberg’s principle, and Casimir’s force implying that a vacuum is not not...
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Superior document: | Title is part of eBook package: De Gruyter DG Plus PP Package 2021 Part 2 |
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Place / Publishing House: | Les Ulis : : EDP Sciences, , [2021] ©2021 |
Year of Publication: | 2021 |
Language: | English |
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Physical Description: | 1 online resource (366 p.) |
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Table of Contents:
- Frontmatter
- Preamble
- Contents
- Symbology
- Introduction
- Chapter 1 Where is Physics Today? – Synthetic Overview of the State of the Art of Physics Today
- Chapter 2 First Ask the Right Question
- Chapter 3 A Strange Analogy between S. Timoshenko’s Beam Theory and General Relativity
- Chapter 4 The Stress Energy Tensor in Theory of General Relativity and the Stress Tensor in Elasticity Theory are Similar
- Chapter 5 Relationship between the Metric Tensor and the Strain Tensor in Low Gravitational Field
- Chapter 6 Relationship between the Stress Tensor and the Strain Tensor in Elasticity (K) and between the Curvature and the Stress Energy Tensor (κ) in General Relativity in Weak Gravitational Fields
- Chapter 7 Can Space-be Considered as an Elastic Medium? New Ether?
- Chapter 8 And if We Reconstructed the Formula of Einstein’s Gravitational Field by No Longer Considering the Temporal Components of the Tensors, but the Spatial Components
- Chapter 9 Re-interpretation of the Results of the Theoretical Calculation of General Relativity on Gravitational Waves in Weak Field from the Windows of Elasticity Theory
- Chapter 10 Determination of Poisson’s Ratio of the Elastic Space Material
- Chapter 11 Dynamic Study of the elastic Space Strains in an Arm of an Interferometer
- Chapter 12 Dynamic Study of Simultaneous Elastic Space Strains in the 2 Arms of an Interferometer
- Chapter 13 Study of an Elastic Space Cylinder Twisted by the Coalescence of Two Black Holes
- Chapter 14 New Mechanical Expression of Einstein’s Constant κ
- Chapter 15 Vacuum Data
- Chapter 16 Calibrating the New Mechanical Expression of κ with the Vacuum Data
- Chapter 17 Let’s Go Back to the Time Components Based on the New Results
- Chapter 18 Analogy of Mohr’s Circle with Graviton Spin
- Chapter 19 What if We Gave Up the Constant Character of G?
- Chapter 20 How to Test the New Theory?
- Chapter 21 Other Points in Link with the Strength of Material
- Chapter 22 Conclusions
- Appendix A Chronological Order of Progress of the Author’s Reflection and Related Discoveries
- Appendix B Measurements of Space-Time Material Deformations (Strains and Angles)
- Appendix C History of Physics and Related Formulas
- Appendix D Calculating the Scalar Curvature R of a Sphere
- Appendix E Application of Einstein’s Equation in Cosmology – Demonstration of Friedmann–Lemaitre Equations
- Appendix F Can-We Understand a Black Hole from the Strength of the Materials?
- Appendix G Proof of the Relation Between Speed c and the Shear Modulus u of the Elastic Medium in the Case of Gravitational Wave
- Appendix H Proof of Curvature in Beam Theory
- Appendix I Proof of Quantum Value of Young’s Modulus of Space Space-Time Obtained in Tables 16.1 and 16.2
- Appendix J Young’s Modulus of the Space Time from the Energy Density of the Gravitational Wave
- References from the Author and from the Article Published at PRAMANA on August 13, 2020
- Terms and Definitions
- Definition of the Main General Relativity Terms (Source e-Lecture of General Relativity Initiation of Richard Taillet Teacher-Researcher at Savoie Mont Blanc University)
- About the Author
- Summary